[Effects of elevated ozone concentrations on reactive oxygen metabolism and related gene expression in Ginkgo biloba leaves].

By using the open top chambers (OTCs) fumigation method, this paper investigated the changes of foliar injury, level of reactive oxygen species (ROS), activities and gene expression of antioxidant enzymes in Ginkgo biloba leaves under different ozone (ambient ozone≈40, 80, 160, 200 nmol·mol) concentrations, in order to study the effects of elevated ozone (O) concentrations on reactive metabolism. The results showed that the obvious foliar injuries were observed in 160 and 200 nmol·mol O treatments, while no visible injury was observed in 80 nmol·mol O and ambient O treatments. After 20 d, a significant increase in O generation rate was observed in G. biloba leaves exposed to 160, 200 nmol·mol O, compared with ambient ozone and 80 nmol·mol O, and there were no significant differences between ambient O and 80 nmol·mol treatments. After 40 d, HO content of G. biloba leaves in 160 and 200 nmol·mol O was significantly higher than that in 80 nmol·mol and ambient ozone, respectively. The activities of catalase (CAT) in 160 and 200 nmol·mol treatments were also significantly higher than that in 80 nmol·mol and ambient O treatments. The ascorbate peroxidase (APX) activity of leaves for each elevated O treatment was lower than that of ambient ozone. The level of CAT and APX expression increased progressively after 40 d O treatment. The expression intensity of GbD was conspicuously strengthened along with the increase of ozone concentration and fumigation time. Le-vel of reactive oxygen increased, activities of antioxidant enzyme decreased, level of gene expression down-regulated, and foliar visible injury was observed in leaves of G. biloba in elevated ozone stress.